KR100570973B1 - FPD with light-shielding substrate and methode for fabricating the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device having a light blocking means for blocking external light on a substrate or an encapsulation substrate, and to improving contrast and efficiency, and a manufacturing method thereof.

A flat panel display of the present invention comprises a substrate; A display element formed on the substrate; And an encapsulation substrate for encapsulating the display element, wherein at least one of the substrate and the encapsulation substrate includes light blocking means for blocking external light formed in the display element.

The substrate has a protrusion for emitting light emitted from the display device, the opening having an opening on its surface. The light blocking means includes a light reflection layer selectively formed only on the sidewall of the protrusion to reflect internal light, and a blocking layer formed on the light reflection layer to block external light. The light blocking layer is formed of an organic black layer, an inorganic black layer, a carbon black layer or a concentration gradient layer of a metal material and an inorganic material to absorb and block external light, or a thin film for extinction and blocking by external light interference. It consists of a metal film and an organic film. The light reflection layer is made of a metal film having a high reflectance.

Description

Display device having light blocking substrate and manufacturing method thereof {FPD with light-shielding substrate and methode for fabricating the same}

1 is a cross-sectional structure diagram of a display device having a light blocking substrate according to a first embodiment of the present invention;

2 is a cross-sectional structure diagram of a display device having an encapsulating substrate for blocking light according to a second embodiment of the present invention;

3A to 3E are cross-sectional views illustrating a method of manufacturing the light blocking substrate of the present invention;

4 is a schematic perspective view of a light blocking substrate of the present invention;

* Description of the symbols for the main parts of the drawings *

110, 250, 310: substrate 120, 240: anode electrode

130, 230: light emitting layer 140, 220: cathode electrode

150, 210: sealing substrate 151, 251, 311: light reflection layer

152, 252, 312: light absorption layer 153, 253, 313: light blocking means

155, 255, 315: protrusion 157, 257, 317: opening

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and to a flat panel display device having a light blocking substrate capable of improving contrast, and a manufacturing method thereof.

Flat panel display devices such as OELD or FED greatly reduce the contrast according to the external light. In the past, black matrixes were formed to prevent the decrease of the contrast caused by the external light. However, in the conventional method of blocking external light using the black matrix, it is difficult to realize black by completely blocking external light in the actual light emitting area. On the other hand, a polarizing plate is used to block external light in the OLED, which is disclosed in US Patent No. 5,596,246. As described above, the OLED using the polarizing plate has an effect of improving contrast by blocking external light by the polarizing plate. However, since the light emitted from the light emitting layer of the organic EL is blocked by more than 50%, the efficiency of the device is reduced, and thus the life is long. There was a problem of deterioration.

Instead of using the polarizing plate, the cathode was formed as a black matrix layer to block external light. However, this method also has a problem that not only external light but also light emitted from the light emitting layer of the organic EL is blocked by more than 50%. In the case of the type display device, there is a problem that a black matrix layer must be formed even in the non-opening part due to the low aperture ratio.

Accordingly, an object of the present invention is to provide a flat panel display device having a light blocking substrate capable of improving contrast, and a method of manufacturing the same.

Another object of the present invention is to provide a flat panel display device having a light blocking substrate capable of improving contrast and increasing efficiency without reducing an aperture ratio, and a manufacturing method thereof.

It is another object of the present invention to provide a flat panel display device having a light blocking substrate capable of blocking irregularities without loss of internal light by forming irregularities on the substrate and a manufacturing method thereof.

In order to achieve the object as described above, the present invention comprises a plurality of light emitting means having an opening; And light blocking means formed on a surface of the light emitting means other than the opening, wherein the light emitting means and the light blocking means are formed on the substrate itself, and the light blocking means is formed on the sidewall of the protrusion to provide internal light. A light reflecting layer for reflecting and a light absorbing layer formed on the light reflecting layer to absorb and block external light are provided.

The substrate is a glass substrate or a plastic substrate, characterized in that the substrate on which the display element is to be formed or the sealing substrate.

The light emitting means has a projection having an opening on its upper surface, and the inclination angle of the projection with the substrate is 45 ° to 90 °. The light blocking means is selectively formed on sidewalls of the protrusions, and includes a light reflection layer formed on the sidewalls of the protrusions, and a light blocking layer formed on the light reflection layer to block external light. The light reflection layer is made of a metal film having a high reflectance, and the light blocking layer is made of an organic black layer, an inorganic black layer, a carbon black layer or a concentration gradient layer of a metal material and an inorganic material to absorb and block external light, Or it consists of a metal film and an organic film of a thin film for extinguishing and blocking external light by interference.

In addition, the present invention is a substrate; A display element formed on the substrate; And a sealing substrate for encapsulating the display element, wherein at least one of the substrate and the encapsulating substrate includes a light blocking means for blocking external light formed on the display element. do.

In addition, the present invention is a substrate; A display element formed on the substrate; An encapsulation substrate for encapsulating the display element; It is characterized by providing a flat panel display device comprising a film attached to at least one of the substrate or the encapsulation substrate and formed on itself and having light blocking means for blocking external light.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 illustrates a cross-sectional structure of an organic light emitting display device according to a first embodiment of the present invention, which is a cross-sectional structure of a top emission organic light emitting display device.

Referring to FIG. 1, the organic light emitting display device according to the first embodiment includes an EL element 10 in which an anode electrode 120, a light emitting layer 130, and a transmissive cathode electrode 140 are sequentially formed on a transparent insulating substrate 110. ). The organic light emitting display device includes an encapsulation substrate 150 which serves to seal the EL element 10 and to block external light.

The encapsulation substrate 150 includes light emitting means for condensing and emitting internal light emitted from the light emitting layer 130, and light blocking means for preventing incidence of external light. The light emitting means has a plurality of protrusions 155 having an opening 157 for emitting the internal light emitted from the light emitting layer 130 on the upper surface thereof. At this time, the inclination angle α of the protrusion 155 and the lower light emitting layer is preferably 45 ° to 90 °.

In addition, the light blocking means 153 is formed on the side wall surface of the protruding portion 155 excluding the opening 157, and includes a light reflection layer 151 and a light reflection layer 151 for reflecting the internal light. It is formed on the light absorbing layer 152 for absorbing external light. The light reflection layer 151 is for reflecting the internal light emitted from the light emitting layer 130, a metal film having an excellent reflectance such as Al is formed to a thickness of 60 to 5000Å. The light absorbing layer 152 serves to block external light by absorbing external light, and is formed of a layer having a concentration gradient between a metal material and an inorganic material, for example, a metal insulation hybrid layer (MIHL) layer. Or an inorganic black layer such as an organic black layer, CrO 2, or a carbon black layer.

In the top emission type organic light emitting display device having the structure as described above, the external light is absorbed by the light absorption layer 152 formed on the sidewall of the protrusion 155, the light emitted from the light emitting layer 130 is Since the light is reflected and collected through the light reflection layer 151 formed on the sidewall of the protrusion 155, external light is blocked and internal light is emitted through the opening 157 of the protrusion 155, which is a light emitting means. Therefore, since only external light is blocked and internal light is emitted without being blocked, it is possible to improve contrast and improve efficiency at the same time.

2 illustrates a cross-sectional structure of an organic light emitting display device according to a second embodiment of the present invention, which is a cross-sectional structure of a bottom emission organic light emitting display device.

Referring to FIG. 2, in the organic light emitting display device according to the second embodiment, an EL element 20 in which an anode electrode 240, a light emitting layer 230, and a transmissive cathode electrode 220 are sequentially formed on a transparent insulating substrate 250 is provided. ), And the EL element 20 is sealed by the sealing substrate 210.

The substrate 250 includes light emitting means for condensing and emitting light emitted from the light emitting layer 230, and light blocking means for preventing incidence of external light. The light emitting means has a plurality of protrusions 255 having an opening 257 for emitting internal light emitted from the light emitting layer 230 on an upper surface thereof. At this time, the inclination angle α of the protrusion 255 with the upper light emitting layer is preferably 45 ° to 90 °.

In addition, the light blocking means 253 is formed on the side wall surface of the protrusion 255 except for the opening 257, the light reflection layer 251 for reflecting the internal light and the light reflection layer 251 It is formed on the light absorption layer 252 for absorbing external light. The light reflection layer 251 is for reflecting the internal light emitted from the light emitting layer 230, and is made of a metal film having excellent reflectance such as Al, and has a thickness of 60 to 5000 kPa. The light absorbing layer 252 serves to block external light by absorbing external light, and the concentration gradient of the metal material and the inorganic material is composed of a MIHL layer or an inorganic black layer such as an organic black layer, CrO2, or the like. Carbon black layer or the like.

In the top emission type organic light emitting display device having the structure as described above, the external light is absorbed by the light absorption layer 252 formed on the side wall of the protrusion 255, the light emitted from the light emitting layer 230 is The light is reflected and collected through the light reflection layer 251 formed on the sidewall of the protrusion 255 and is emitted through the opening 257 of the protrusion 255. Therefore, since only external light is blocked and internal light is emitted without being blocked, it is possible to improve contrast and improve efficiency at the same time.

3A to 3E are cross-sectional views illustrating a method of manufacturing a transparent insulating substrate having a light blocking function according to an embodiment of the present invention.

As shown in FIG. 3A, a transparent insulating substrate 310, such as organic or plastic, is provided, and a photosensitive film 320 is coated on the insulating substrate 310 as shown in FIG. 3B. Subsequently, as shown in FIG. 3C, the photoresist layer 320 is patterned to expose the substrate 310 except for an opening portion. The protrusion 315 is formed by processing the exposed substrate using the photosensitive film 320 as a mask through a laser processing or a molding process.

As shown in FIG. 3D, the light reflection layer 311 and the light absorption layer 312 are sequentially deposited on the front surface of the substrate, and then, as illustrated in FIG. 3E, the remaining photosensitive layer 320 is removed to form an opening 317 on the upper surface of the protrusion 315. At the same time, the light blocking means 312 consisting of the light reflection layer 311 and the light absorption layer 312 is selectively formed only on the sidewall of the protrusion 315.

As the light reflection layer 311, a metal film having a high reflectance is used, and as the light absorption layer 312, an organic black layer, an inorganic black layer, or a carbon black layer is used, or a MIHL layer having a concentration gradient between a metal material and an inorganic material is used. Also used. In addition, a three-layer film of a thin metal film, an inorganic film and a thick metal film may be used as the light blocking means 313.

In the substrate 310 having the light blocking function of the present invention, as shown in FIG. 4, the protrusion has the shape of a triangular pyramid, but the internal light is reflected through the light blocking means 312 to be emitted to the opening, and the external light is absorbed. Blocking structures are all possible.

In the embodiment of the present invention, since the area occupied by the opening in which the light blocking means is not formed is very small among the entire devices, the reflection effect by external light is almost negligible. Therefore, the light blocking function is applied to the substrate itself by the deformation of the geometric structure of the substrate. Is provided to reflect the internal light to the front or back without loss can be emitted.

In the embodiment of the present invention, the light blocking means comprises a light absorbing layer for absorbing external light and a light reflecting layer for reflecting the internal light, but as another embodiment, three layers of a thin metal layer, an organic layer, and a thick metal layer It can also be formed as a laminated film of a structure. The metal layer and the organic layer of the thin film are optical interference layers, and reflect the incident external light and serve to block the external light by extinguishing each reflected light by interference. In addition, the metal layer of the thick film is a light reflection layer, and serves to reflect the internal light generated in the light emitting layer to be emitted through the opening of the protrusion. At this time, a metal having excellent reflectance such as Al is used as the metal layer, and an insulating film such as an oxide film is used as the organic film.

In the exemplary embodiment of the present invention, the substrate or the encapsulating substrate is directly processed to form a protrusion, and the light blocking means is formed on the side wall of the protrusion. However, the substrate having the protrusion having the light blocking layer as described above is separately manufactured in the form of a film. It can also be attached to the sealing substrate.

In the organic light emitting display device according to the embodiment of the present invention as described above, by forming a light blocking layer on the substrate to block external light, it is possible to improve the contrast and improve the efficiency, and also to reduce the power consumption. There is an advantage that can be extended.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

Claims (18)

A plurality of light emitting means having openings; It includes a light blocking means formed on the surface of the light emitting means except the opening, The light emitting means and the light blocking means are formed on the substrate itself, and the light blocking means is formed on the side wall of the protrusion to reflect the internal light, and is formed on the light reflecting layer to absorb external light. A substrate for a flat panel display device, comprising: a light absorption layer for blocking the light. The flat panel display substrate of claim 1, wherein the substrate is a glass substrate or a plastic substrate. The flat panel display substrate of claim 1, wherein the substrate is a substrate or an encapsulation substrate on which a display element is to be formed. The flat panel display substrate of claim 1, wherein the light emitting means includes a protrusion having an opening on an upper surface thereof, and the light blocking means is selectively formed on sidewalls of the protrusion except for the opening. . The substrate of claim 4, wherein an inclination angle of the protrusion with the substrate is 45 ° to 90 °. delete The flat panel display of claim 1, wherein the light reflection layer is formed of a metal film, and the light absorption layer is formed of an organic black layer, an inorganic black layer, a carbon black layer, or a concentration gradient layer of a metal material and an inorganic material. Substrate. A plurality of light emitting means having openings; It includes a light blocking means formed on the surface of the light emitting means except the opening, The light emitting means and the light blocking means are formed on the substrate itself, and the light blocking means is formed on the side wall of the protrusion to reflect the internal light, and is formed on the light reflecting layer to interfere with external light. A substrate for a flat panel display device, comprising: an optical interference layer for extinguishing and blocking by light. The substrate of claim 8, wherein the light reflection layer is formed of a metal film of a thick film, and the light interference layer is formed of a metal film and an organic film of a thin film. A substrate; A display element formed on the substrate; An encapsulation substrate for encapsulating the display element, At least one of the substrate and the encapsulation substrate includes light blocking means for blocking external light formed on the substrate, and the light blocking means includes a light reflection layer formed on the sidewall of the protrusion and a light difference formed on the light reflection layer. The light reflection layer is made of a metal film, and the light blocking layer is made of an organic black layer, an inorganic black layer, a carbon black layer, or a concentration gradient layer of a metal material and an inorganic material to absorb and block external light. A flat panel display device comprising: a thin metal film and an organic film for cutting off or extinguished by interference with external light. The flat panel display of claim 10, wherein the substrate or encapsulation substrate is a glass substrate or a plastic substrate. 11. The substrate according to claim 10, wherein the substrate has a protrusion for emitting light emitted from the display device having an opening on its upper surface, and light blocking means is selectively formed only on the sidewall of the protrusion. Flat Panel Display. delete The flat panel display of claim 10, wherein an inclination angle of the protrusion with the substrate is 45 ° to 90 °. A substrate; A display element formed on the substrate; An encapsulation substrate for encapsulating the display element; And a film attached to at least one of the substrate and the encapsulation substrate, the film having a light blocking means formed on itself and blocking external light, wherein the light blocking means comprises a light reflection layer selectively formed only on the sidewalls of the protrusions; And a light blocking layer formed on the light reflection layer, wherein the light reflection layer is formed of a metal film, and the light blocking layer is formed of an organic black layer, an inorganic black layer, a carbon black layer, or a metal material for absorbing and blocking external light. A flat panel display device comprising a metal film and an organic film of a thin film made of a concentration gradient layer of an inorganic material or extinguished by an interference of external light. 16. The film according to claim 15, wherein the film has a projection for emitting light emitted from the display element, the opening having an opening on its upper surface, and light blocking means is selectively formed only on the sidewall of the projection. Flat Panel Display. delete The flat panel display of claim 16, wherein an inclination angle of the protrusion part with the substrate is 45 ° to 90 °.

Images